Suppose the maximum safe average intensity of microwaves for human exposure is taken to be 1.50 W/m². If a radar unit leaks 10.0 W of microwaves (other than those sent by its antenna) uniformly in all directions, how far away, rmin, must you be to be exposed to an average intensity considered to be safe? Assume that the power spreads uniformly over the area of a sphere with no complications from absorption or reflection. Imin = m What is the maximum electric field strength E, at this distance? The permittivity of free space is €o = 8.854 x 10-12 C²/ (N-m²). The speed of light is c = 3.00 × 10% m/s. E, = V/m Note: Early radar units leaked more than modern ones do. This caused identifiable health problems, such as cataracts, for people who worked near them.
Suppose the maximum safe average intensity of microwaves for human exposure is taken to be 1.50 W/m². If a radar unit leaks 10.0 W of microwaves (other than those sent by its antenna) uniformly in all directions, how far away, rmin, must you be to be exposed to an average intensity considered to be safe? Assume that the power spreads uniformly over the area of a sphere with no complications from absorption or reflection. Imin = m What is the maximum electric field strength E, at this distance? The permittivity of free space is €o = 8.854 x 10-12 C²/ (N-m²). The speed of light is c = 3.00 × 10% m/s. E, = V/m Note: Early radar units leaked more than modern ones do. This caused identifiable health problems, such as cataracts, for people who worked near them.
Chapter16: Electromagnetic Waves
Section: Chapter Questions
Problem 62P: Suppose the maximum safe intensity of microwaves for human exposure is taken to be 1,00 W/m2. (a) If...
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![Suppose the maximum safe average intensity of microwaves for human exposure is taken to be 1.50 W/m2. If a radar unit leaks
10.0 W of microwaves (other than those sent by its antenna) uniformly in all directions, how far away, ľmin, must you be to be
exposed to an average intensity considered to be safe? Assume that the power spreads uniformly over the area of a sphere with
no complications from absorption or reflection.
Imin =
What is the maximum electric field strength E, at this distance? The permittivity of free space is
€0
= 8.854 x 10-12 C²/(N-m²). The speed of light is c =
3.00 x 108 m/s.
Eo
V/m
%3D
Note: Early radar units leaked more than modern ones do. This caused identifiable health problems, such as cataracts, for people
who worked near them.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F854844bf-0774-47f7-8e27-c9b3fc8a4a1a%2F4902bc01-fcd6-4136-853c-a15042d8c6f6%2Fr4u3ntm_processed.png&w=3840&q=75)
Transcribed Image Text:Suppose the maximum safe average intensity of microwaves for human exposure is taken to be 1.50 W/m2. If a radar unit leaks
10.0 W of microwaves (other than those sent by its antenna) uniformly in all directions, how far away, ľmin, must you be to be
exposed to an average intensity considered to be safe? Assume that the power spreads uniformly over the area of a sphere with
no complications from absorption or reflection.
Imin =
What is the maximum electric field strength E, at this distance? The permittivity of free space is
€0
= 8.854 x 10-12 C²/(N-m²). The speed of light is c =
3.00 x 108 m/s.
Eo
V/m
%3D
Note: Early radar units leaked more than modern ones do. This caused identifiable health problems, such as cataracts, for people
who worked near them.
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